34,985 research outputs found
Geometry of Deformed Boson Algebras
Phase-space realisations of an infinite parameter family of quantum
deformations of the boson algebra in which the -- and the --deformed
algebras arise as special cases are studied. Quantum and classical models for
the corresponding deformed oscillators are provided. The deformation parameters
are identified with coefficients of non-linear terms in the normal forms
expansion of a family of classical Hamiltonian systems. These quantum
deformations are trivial in the sense that they correspond to non-unitary
transformations of the Weyl algebra. They are non-trivial in the sense that the
deformed commutators consistently quantise a class of non-canonical classical
Poisson structures.Comment: 20 pages, late
Masses of Open-Flavour Heavy-Light Hybrids from QCD Sum-Rules
We use QCD Laplace sum-rules to predict masses of open-flavour heavy-light
hybrids where one of the hybrid's constituent quarks is a charm or bottom and
the other is an up, down, or strange. We compute leading-order, diagonal
correlation functions of several hybrid interpolating currents, taking into
account QCD condensates up to dimension-six, and extract hybrid mass
predictions for all , as well as explore possible
mixing effects with conventional quark-antiquark mesons. Within theoretical
uncertainties, our results are consistent with a degeneracy between the
heavy-nonstrange and heavy-strange hybrids in all channels. We find a
similar mass hierarchy of , , and states (a state
lighter than essentially degenerate and states) in both the
charm and bottom sectors, and discuss an interpretation for the states.
If conventional meson mixing is present the effect is an increase in the hybrid
mass prediction, and we estimate an upper bound on this effect.Comment: 24 pages, 8 figures. Mass predictions updated from previous version
to reflect corrected sign error in sum rule analysis. Mixing analysis and
examination of higher weight sum-rules added. To be published in JHE
Spinor Bose Condensates in Optical Traps
In an optical trap, the ground state of spin-1 Bosons such as Na,
K, and Rb can be either a ferromagnetic or a "polar" state,
depending on the scattering lengths in different angular momentum channel. The
collective modes of these states have very different spin character and spatial
distributions. While ordinary vortices are stable in the polar state, only
those with unit circulation are stable in the ferromagnetic state. The
ferromagnetic state also has coreless (or Skyrmion) vortices like those of
superfluid He-A. Current estimates of scattering lengths suggest that the
ground states of Na and Rb condensate are a polar state and a
ferromagnetic state respectively.Comment: 11 pages, no figures. email : [email protected]
Universal scale factors relating mesonic fields and quark operators
Scale factor matrices relating mesonic fields in chiral Lagrangians and
quark-level operators of QCD sum-rules are shown to be constrained by chiral
symmetry, resulting in universal scale factors for each chiral nonet. Built
upon this interplay between chiral Lagrangians and QCD sum-rules, the scale
factors relating the isotriplet scalar mesons to their underlying quark
composite field were recently determined. It is shown that the same technique
when applied to isodoublet scalars reproduces the same scale factors,
confirming the universality property and further validating this connection
between chiral Lagrangians and QCD sum-rules which can have nontrivial impacts
on our understanding of the low-energy QCD, in general, and the physics of
scalar mesons in particular.Comment: 5 pages, 1 figure. arXiv admin note: text overlap with
arXiv:1909.0724
Quantum Hall Ferromagnets
It is pointed out recently that the quantum Hall states in bilayer
systems behave like easy plane quantum ferromagnets. We study the
magnetotransport of these systems using their ``ferromagnetic" properties and a
novel spin-charge relation of their excitations. The general transport is a
combination of the ususal Hall transport and a time dependent transport with
time average. The latter is due to a phase slippage process in
and is characterized by two topological constants. (Figures will be
provided upon requests).Comment: 4 pages, Revtex, Ohio State Universit
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